Light-Enhanced Heterogeneous Conversion of NO2 to HONO on Solid Films Consisting of Fluorene and Fluorene/Na2SO4: An Impact on Urban and Indoor Atmosphere

Light-Enhanced Heterogeneous Conversion of NO2 to HONO on Solid Films Consisting of Fluorene and Fluorene/Na2SO4: An Impact on Urban and Indoor Atmosphere

Polycyclic aromatic hydrocarbons (PAHs) as constituents of urban grime and indoor surfaces can impact the photochemical conversion of nitrogen dioxide (NO2) to nitrous acid (HONO) thereby impacting the oxidation capacity of the atmosphere. In this study we investigate the effect of relative humidity...

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Bibliographic Details
Published in:Environmental science & technology Vol. 54; no. 18; pp. 11079 - 11086
Main Authors: Liu, Jiangping, Deng, Huifan, Li, Sheng, Jiang, Haoyu, Mekic, Majda, Zhou, Wentao, Wang, Yiqun, Loisel, Gwendal, Wang, Xinming, Gligorovski, Sasho
Format: Journal Article
Language:English
Published: Easton American Chemical Society 15-09-2020
Subjects:
Anthropogenic Impacts on the Atmosphere
Atmosphere
Atmospheric models
Conversion
Fluorene
Indoor environments
Light intensity
Luminous intensity
Nitrogen dioxide
Nitrous acid
Oxidation
Photochemical reactions
Photochemicals
Polycyclic aromatic hydrocarbons
Pressure
Relative humidity
Sodium sulfate
Urban environments
Water chemistry
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Summary:Polycyclic aromatic hydrocarbons (PAHs) as constituents of urban grime and indoor surfaces can impact the photochemical conversion of nitrogen dioxide (NO2) to nitrous acid (HONO) thereby impacting the oxidation capacity of the atmosphere. In this study we investigate the effect of relative humidity (RH%), light intensity, and NO2 concentrations on uptake coefficients (γ) of NO2 on solid film consisting of fluorene (FL) and a mixture of FL and Na2SO4 as a proxy for urban and indoor grime at ambient pressure and temperature. γ­(NO2) on solid FL increased markedly from (5.7 ± 1.7) × 10–7 at 0% RH to (4.6 ± 1.0) × 10–6 at 90% RH. The NO2 to HONO conversion yield, (ΔHONO/ΔNO2)%, increases with RH from 40% at 0% RH up to 80% at 60–90% RH, indicating that the water molecules favor the formation of HONO up to 60% RH. These results suggest that the heterogeneous photochemical reaction of NO2 on FL and FL/Na2SO4 can be an important source of HONO in the urban environment and indoor atmosphere and should be considered in photochemical models.
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.0c02627